Combined typewriting and computing machine



H. HANSON. comamzu TYPEWHITING AND COMPUTING MACHINE.

B SHEETS-SHEET I.

Patented May 16, 1922.

APFLICAUON FILED MIG-13.15MB.

A NEY.

H. HANSON.

COMBINED TYPEWRITING AND COMPUTING MACHINE.

APPLICATION nun AUG.13. I919.

1,41 6,464. Patented y 16, 1922.

B SHEETS-SHEET 2.

INVENTOFU BY ATTO EY.

H. HANSON.

COMBINED TYPEWRITING AND COMPUTING MACHINE.

Patented May 16, 1922.

B SHEETS-SHEET 3- F l l INVENTOR= APPLICAHON HLED AUB.I3.19|9. 1,416,464.

ATT

H. HANSON.

COMBINED TYPEWRITING AND COMPUTING MACHINE.

Patentd May 1 ,1922.

APPLICATON FILED AUGJB, 19H). 1,416,464.

' 8 5HEET$-SHEET 4.

kll

H. HANSON.

COMBINED TYPEWBITING AND COMPUTING MACHINE- APPLICATION FILED AUG-13.1519.

Patented May 16, 1922.

8 SHEETS-SHEET 5.

INVENTOW A HNEY.

H. HANSON.

COMBINED TYPEWHIUNG AND COMPUTING MACHINE.

APPucAnou HLED AUG.I3.1919. 1,416,464, Patented May 16, 1922.

a suns-swan s.

INVENTOR= M M ATTO EY- H. HANSON. COMBINED TYPEWRITING AND CUMPUTING MACHlNE.

APPLICAUON FILED Au6.l3. 1919.

1 ,416,464:. Patented May 16, 1922.

8 SHEETSSHEET 1.

H. HANSON.

COMBINED TYPEWRIIING AND COMPUTING MACHINE.

APPLICATION FILED MIGJB, 1919. 1,416,464, Patented May 16, 1922.

8 SHEETS-SHEET 8- INVENTOR= MM ATT nun.

NNGE numeral keys may be set up,

v UNITED STAT HANS rtinsoN, .OF

momrgtofimn CQMPANY, or NEW YORK. N.

IVORYTON, CONNECTICUT, ASSIGNOR TO UNDERWOQD COMPUT- Y., A CORPORATION OF NEi-V YORK.

COMBINED TYPEWRITING AND COMPUTING MACHINE;

Be it known. that. L HANsHAnsON, a citizen ot the United-States, residingin Ivorytoinin the countytof Middlesex and State of Connecticut, haveinvenqed certain new and nsefulaln provements i11 -Combined,. Typewritingand Qornputingli'llachines, of which the following-is ins eoificat-ion This .inrention re ates. to combined :typier tii iiedi e e i e es-wane is e hqnee nre ed t the' x s known as the l lnflemsood ansommaehine. I Qne formoi th s'niiic e is shown in .my. Patent September: 110,;1918,

which comprises a seto findexing members upon whichla number 'that s typedby the while the. letter;

feeding carriag t zivcrsesa computing zone afiter .whidrageneral. operator may. lieactutalizers beconnected ated to: Epn. the set izpcor, indegrednumbeg into a to talizer or register, ilndesing pins arevsettabie by linkagesactuable the type keys,; s o.that the general operator may, drive the dials through va1'ious. distanees .by en gaging with t hpindexedpinsxtoactuate a set of individual-driven mlthasbeenproposed to master drivers witlx which-a plurality at will.. A feature'of .thisinvention is to provide a single set of controlling members. which may be set either additive] y or snhtractively to actuate the master drivers. z

Another feature of the .invention iis to provide means on the carriage to selectively and automatically connect one or more totaliaers with the master drivers. In carr vin; out this feature of the invention, I-have provided .a series of selector levers in the form of hail-like members. actuable by selectors on the carriage. There is' one selector lever tor-rash totalizeneach having connected thereto a. selector bar which. when acprovide a set of 0t totualed. sets an intcrponent to set up a preliminary condition in the machine. to render the totalizer efi'ective. EH-(ll totalizer has associated therewith a set of intermediate t ansfer members or interponcnts guided on a shiftable support. the .sevcral supports being actunhle by the general operator through the medium of the various intcrpo ucnt lu rill-rt the desired connections be Wow the ILLQL Al' drivers ,ziud dial wheels (at the Yitl'lt ll: totalizcrs. lter the various to a ucanmrfiled rag a ,13, 1919.

ps e n' Patented-May 16-, 1922.

Serial No. 317,178.

talizers have been connected through the me? drum of the transfer members, the general operator is effective to actuate the control lin members to actuate the master drivers and r'uni'the' set'up number into the selected totaliieis. I v q A furtl1er feature of the invention is jthe PIOVISLOD" ofa set of master-intermediate pin :hars interposed between the indeiing pinsonthe contr'ollingmembers and the pinsetti'ng linkages, These master [Jillrbil rs may lie-moved forwardly individually by adjust able devices on the, carriage; os'the latter passes through the computing zone, so that the indexing pins on the dial-driving mom; bers may be set by the linkages through the medium of the mastcr'pins. To move the intermediate or master pin bars totheir pin setting positions, the selector-son the, carriage: may ,actuate denomination selecting levers connected with th e i'naster pin bars. Pr ovisionis made to set; the machine 'to subtraction by a motor which may be auto. matically released b the carriage. For this purpose, there m'ay;be provided a bail-likem'ember'or subtraction setting lever actuable by a selector. when the'carriage passes into a subtraction zone; to release the motoi: whereupon the latter rotates to set the 9 pins on the controlling elements. and change the connection between the pin setting linlc{ ages and the numeral lcevs, so that the indexmotor comprises a spring which may be vewound by the general operator.

Means is provided to control the speed of the motor for the subtraction settiu mechanism to cause the 9 pins to be set with a restrained action. This means in the form heroin showu, comprises a paddle or blade which is rotatively mounted and geared to the motor.

.The selectors are provided with various tappets which may engage the totalizer Selectorleveis, the denominational selector levers and thc subtraction setting lever. These tappets are provided on a pivoted member of the selector, which has thereon a roller to engage with a guide to accuiately position and hold the tappct in their diet;- tivr positions while the carriage istraversin; a computing' zone.

Provision is also made to retain our of the totalizers indefinitely in effective relation with the master drivers, to serve as a cross-totalizer, or, in other words, to compute crosswise of vertical columns.

Provision is further made to render the totalizer selector levers, the subtraction set ting lever and the denomination selecting levers ineffective. For this purpose,-a ful; crum, upon which all of said levers are pivotally mounted, is floatingly supported so that it may be actuated to swing said levers to take them out of'efiective relation with the respective tappets on the selectors. This may be done by a non-compute key, tabulator keys, a case-shift key and a back-spacer key.

The controlling members, by which the indexing pins are carried, are arranged in re verse denominational order, with the one of highest denominational order toward the right of,the set, transposed connections ing hadfbetween the controlling ,members and the dial wheels of the totalizers so that the controlling member to the extreme righthand side of the set may actuate the dial wheel to the extreme leftrha'nd side of. theset of dial wheels in the totalizer. For this purpose, said driyers are provided with a set of pinions with which racks on the controls ling members meshythej set of pinionsbeing arranged diagonally crosswise of s'aiddriw The drivers may also be provided with another'one or more s'ets'of pinioiis which may engage withracks on. the intermediate transfer devicesjor connectors; the last-mentioned sets of pinions being arran'ed agonally crosswise of "saiddrivers an crosswise ofthe' direction of the first-mentioned set of pinions' I Each controllingmembe'r is provided with a latchjo 'hold the indexing pins in their set positions. Each latch is pivotally mounted to swing sidew'ise of the controlling mem ber, and may be actuated by a release pin on the controlling member, all of the release ins being actuable by a universal bar durmg the latter part of the return stroke of the general operator to release all theset indexing pins, thus clearing the machine of the set-u number after it has been run into the totalizer. The latch is also actuable by any one of the indexing pins, so that an erroneously set pin may be released by depressing the correct pin.

Individual shutters are provided for the totalizers, all of the shutters being normally eli'ective to cover the dial wheels. The various shutters may be controlled and held in their normal positions by the totalizer selector bars. \Vhen a totalizer is selected, the associated totalizer selector bar moves out of holding relation with the associated shutter. the latter being released by rnczms actuated during the retium stroke of the general op erator, so as to uncovcr the dial wheels to expose the numerals through a suitable sight opening. When the carriage passes out of the computing zone, the totalizer selector bar returns to its normal position, thus restoring the shutter to cover the dial wheels.

Each totalizer is provided with a key to type a clearance sign, thevarious keys being actuable only under the conditions that the totalizer has been selected and that the dial wheels of the totalizer are in their 0 po si tion. For this purpose each key is provided with a locking member. which is held in effective locking relation with the key by the associated totalizer selector bar, and the dial wheels have associated therewith intermediate controlling devices or elements, which may engage in depressions on the dial wheels to permit the locking member to be actuated only when all of the dial wheels of the totalizer are at zero. When the totalizer is selected for computation, the selector bar is actuated and tends to move the locking memher. If, however, the dial wheels are not in their zero positions, the intermediate controlling devices prevent the locking member from being actuated, and, consequently, the key cannot be depremed.

Other features and advantages will hereinafter appear.

" In the accompanying drawings Figure 1 is a staggered sectional side view of the machine, showingthe parts in their normal positions.

Figure 2 is a detail view of the escapement devices and their connection with the ty ewritcr carriage.

*ignre 3 is a rear view of the machin with some of the parts omitted;

Figure 4 is a top plan view of the lower part of the machine, showing the master drivers, the controlling members therefor and transfer members for a plurality of total izeis.

Figure 5 is a detail View of part of the sub traction setting mechanism.

Figure 6 is a sectional side view of the lower part of the machine, the section being! taken substantially on the line 66. Figure 4. and the parts being shown in their normal positions.

Figure 7 is a sectional side view of the lower part of the machine as seen from the other side. the section being taken substan tially on the line 77 of Figure 7. and the parts being in their normal positions.

Figure 8 is a skeleton. diagrammatic, sec tional view of the lower part of the ma chine looking from the same side as in Fig ure 1, and shows a totalizer selected for con putation.

Figure 9 is a skeleton. diagrammatic. sec tionzil view. showing one of the intermediate pin bars in its actuated position and an in dcxing pin being set.

Figure 10 is a detail. diagrammatic view of parts shown in Figure 8; and shows the support for the intermediate transfer members actuated during the early part of the movement of the general operator, to con nect the master drivers with the computing wheels of the totalizers through the medium of the intermediate transfer members.

Figure 11 is aview similar to Figure 10, but shows the parts in position after the general operator reaches its extreme for ward position. x

Figure 12 is-aview similar to Figure 11, and shows the; intermediate transfer members lowered. out of effective relation with the master drivers and the computing wheels during. the; early, part of the return movement of the general operator.-

.Fi me 13 is adetail, diagrammatic view, showing a shutter released by a cam on the carry-over shafts Figure .14, is a diagrammatic, sectional side View askseen from. the. left-hand side of the tn achine, and -s'hows the mechanism set to subtraction.

Figure 15 is-a detail, perspective view of one of the supports for the intermediate transfermembers and the mechanism for actuating and; guiding said support.

Figure 16 is a. perspectiveyiew of one of the selectors.

Figure 17.is a fragmentary top plan view, showing two ,selectors. andthe levers actuable-thereby. j.

Figure 18. is an e larged detail view of a portion of a controlling memberand the springpres sed indexing ins thereon.

, Figure 1.9 is a sectionaview of one of the controlling members, the section being taken on the -line:1 9'. -19 .ofigFigure 18.

Fi are 20 is .a sectional view of the controlhng member,- show ing. the release in which is efi'ective to actuate the latch to re lease the set indexing. pin when clearing the machine of a number, the section being taken on the line 20.20 of Figure 18.

Figure 21 is a diagrammatiqside view. showing a non-compute key actuated to ren derthe totalizer selector levers, the denomination selector levers and the subtraction setting lever-ineffective.

Figure22 is a diagrammntiqskeleton. perspective .view, showing, the invention in a general way.,

Figure 23 is a detail top plan view of the supernumerary member. and the adjacent uni ts controlling member.

Figure 24 is a detail side view of the supernumerary member.

Figure 25 is an enlarged view. showing the shape of the O pin compared with the sha es of the other indexing pins.

humeral keys 25 and alphabet. keys 26. when depressed. actuate lrey-levers 2? about their fulcrum 2S, torock bll-CHlIllS 29 to swing type bars 30 upwardly and rear \vardly to cause loiver case types Lil and upper case types 2 to print against a platen 3&3. rotnlivelv supported in a platen frame 34 on typewriter wnrriugc 35. adapted to travel back and forth on a front rail 36 and a rear rail 37.

The carriage 25.3 is urged from right to left of the machine b v a spring drum 38, connected to the carriage by a strap 40, to effect lettenteedin; movements of said carriage during typing operations. feeding movements of the carriage are con trolled by escnpcment mechanism including a loose dog 41 and a fixed dog 42, (Figure 2), on a dog rocker 43. The dog rocker is reciprocnted at each key depression to cause the dogs 41 and 4-2 to engage with an escapement wheel 44, having the usual one-way pawl connection 45 with a pinion 46 with which a pivoted teed rack 47 on the type writer carriage meshes. To actuate the dog rocker. each type bar 30 is provided with a heel 48 to engage a curved univelsal bar 50 to move the latter rearv ardly and swing the dog rocker 43 about its pivot by means of a cross-bar 51 on said universal bar. The usual springs. (not shown), may restore the universal bar and the dog rocker to their normal positions.

The carriage is adapted to traverse a computing zone. If a number is typed while the carriage traverses said zone, the number may be set n p or indexed on a set of controlling members 52 by setting indexing pins 53 (having values from O to 9) thereon; the controlling members being artuable after the indexing pins have been set to transfer their values to a totalizer, herein after described. To set the indexing pins on the controlling members, the numeral keys 25 are provided with pendants 54, which engage with arms 55 on shnl'ts 5G to rock the latter. The shafts 50 are supported in a frame 57, and are provided with arms 53 to actuate pin-setting devices or linkages comprising horizontully-moving bars tiOconnected with pin-setting bars (ll to mow the latter vertically dmvnwnrd. 'hen the carriage is out of rompnting zone. the pin setting bars 61. move idly down between in termedinte pins 62. having values from "H" to 9" and carried by intermediate pin bars (33. While the carriage traverses the computing zone. the intermediate pin bars 63 are moved individually forward to bring the pins (32 into clicctive relation with the pin-setting bars 61 and the indexing JlIlS 53. in a manner hereinafter described. llverv time the carriage comes to a letterspace position in the computing zone, our of the pin burs 3 is held in its iorvvarl position, so that. it a minimal key is uctn' nled. the us-orinted pin-setting bur til de presses the pin (3') llu'rcundlr to et the do sired indtwing pin 53 on the tontrollin; llitllllllll' .32.

These letter- To move the intermediate pin bars 63 to their rll'ect ive pinsetting positions. there are provided on the carriage one or more selectors 64. Each selector comprises a body portion (35, which straddles a bar 66 and is held in place between the teeth 67 thereon :uul between the teeth 68 of two crossbars 70 and 71, respectively, said bars being held at their ends in brackets 72 secured to the carriage 35. The selector is provided with tappets 73, which engage with denomination selector levers 74. to swing them individually about a fulcrum rod 75, to move the lower ends 76 of the denomination selector levers forwardly and push links 77, which may be connected with the intermediate pin bars 63 in any suitable manner. to move the latter to their pin-setting positions against return springs 78. (Figure 9), interposed between a guide plate 80 for the intermediate-pin bars and projections 81 on said bars. The forward ends of the intermediate pin bars 63 are guided by a plate 82, bothguide plates 80 and 82'being secured to the frame 57 of the rock shafts 56. I

The indexing pins '53 may be held in=their set positions on the controlling members 52 by pivoted latches 83, to biz-actuated by-cams 84 and toengage in notches 85 of saidpins. The latchesare held in engagement'with said pins by springs 86, (Figures'18, 19 and A plate 87 may be provided to engage with flat faces 88 on the indexing pins 53, to prevent the pins from turning on the controlling members 52.

After the indexing pins 53. corresponding to the number typed, have been set. the controlling members 52'may be actuated by a general operator 90 including a cross-bar 91, which may be moved forwardly in an convenient manner. a handle 92 being erein shown for this purpose, which rocks a shaft 93, having two segmental gears 94 and 95 thereon which mesh with two pinions 96 and 97 to drive racks 98 and 99. formin" part of the general operator 90 and to which the cross-bar 91 is secured. The cross-bar 91 engages with the set pins 53 to move the controlling membeis 52 through distances equal to the values of the set pins.

The controlling meznbeis 52 actuate a set of drivers or driving elements 100 (Figures 1. 4 and 11). which have pinions 101 thereon. meshing with racks 102 on the controlling members. The drivers actuate a set of interponents or transfer elements or devices 103 by mean of pinions 10 1 on said drivers. meshing with racks 105 on said transfer devices to drive computing wheels 106. having innneiwils from W to 9". inclusive. thereon. through distzinrrs proportional to the move n u iif thicorresponding controlling niemlit-is. h iillilHH nj racks i l? on said transfer tlt"illl" m shing iii'h pinions ltlS Secured to the iw npnliiig uhrcls. 'lhe controlling eral operator 90 by a members 52 are restored to their normal po. sition by the cross-bar 91 during the return stroke of the general operator, when said cross-bar engages with projections 109 on the controlling members.

The computing wheels 106 form part of a total zer 110, having end plates 111 and 112, oined by a cross-piece 113 and two rods 114 and 115 (Figures 4 and 6). The rOds 114 and 115 rest on positioning blocks 116 and 117, and are secured thereto by a plate 118 and a screw 120 threaded into a base plate 121. to hold the totalizer in place. lhe computing wheels 106 are rotatively supported on a rod 122, supported between the side plates 111 and 112.

The indexing pins 53 are released to re sunie their ineffective positions prior to setting up a new number. For this purpose. each controlling member 52 is provided with a' release pm 123 (Figures 1, 18 and 20), all of the release pins being actuated during the latter part of the return stroke of the genauniversal bar or bail 124, toswing the tches 83 out of holding relation with the set indexing pins 53, thus permitting springs 125 to return said pins to their normal or ineffective positions.

To actuate universal bar 124 for the release pins 123 ,thereis pivotally mounted on the general operator 90 a pawl126, which is ineffective during the forward stroke of the general operator, but engages, during tlie latter part of the return stroke of the general operator, with a cam 127 on an arm 128, secured to a shaft 129, to rock the latter to swing the universal bar 124, extending 'for wardly from said shaft and underlying the release pins 123, so that they may be actuated together. It should be understood that the pawl 126 carried past the cam 12? to release the arm 128, the pawl then pr0jectmg into a notch in said arm.

An error may be corrected by properly repositioning the carriage in the computing zone and then typing the correct number. If, for example, the figure 2 is typed where 3 should have been typed, the 2 indexing pin is set instead of the 3 pin. By bringing the carriage hack to the proper position and typing the 3. the 3 indexing pin is set. The cam 84 on the 3 pin moves the latch 83 to release the 2 pin, thus permitting the latter to return to it normal position. The zero numeral key is also rovided with a pin setting linkage adapte to actuate the 0" pin. The 0 pins are provided for making corrections, each being efl'ective to actuate the latch to release any one of the indexing pins 53 from 1" to 9" ilii'lUSlVL. but they are not provided with notrhes H5 a the other indexing pins are: conseqnentlv they are not held in their actuated po itions there being: no need to latch the W p down, because when 0 is typed in any do nominational position the controlling mem her of that denominati nal po-ition is left unactuated when the general operator moves forward. The (1 pin. therefore. is pro vided simply with a cam 5'! to actuate the latch 8-3.

To eflect the carrying from one computing wheel or dial vrhrel 106 to another, each dial wheel is provided with a tooth 131 to rotate a pinion 132 as the dial wheel passes from 9" to 0" at a sight-opening 133 in a cover plate 134. lhe pinion 132 has a threetoothed member or pinion 135 connected therewith to bring the latter into mesh with a gear wheel 136, secured to the nest adjacent dial wheel 106. The pinion 132 when rotated is rendered effective to be actuated by an arm 13? on a carry-over shaft 138, there being one arm 137 for each pinion 132. The carry-over shaft 138 is actuated during the return stroke of the general operator 90, and is geared to the rack 98 of the general operator by an intermediate pinion 140, meshing with a pinion 141, the latter having a oneavay ball clutch connection with the carry-over shaft 138, as in the Under-wood- Hanson machine. When the carry-over shaft 138 is rotated, the various arms 137 thereon engage with the various pinions 132 which have been set to produce carry-overs, so that the three-toothed members 135 may be actuated .to rotate the dial wheels 106 through single digit positions. The carryover shaft 138 is caused to make a complete revolution. thus restoring the arms 137 to their normal positions. Dctents 142 and 143 are ,provided to hold the dial wheels 106 and the carry-over pinions 132. respectively, against accidental displacement.

In the present invention. the complemental method of subtraction, with a base nine, i used as in my prior patent above referred to. In this method. it is necessary to set the- 9 indexing pins 53 and cluinge the connections between the key-operated shafts 56 and the bars linkages, so that the numeral keys may actuate the pin-setting linkages and set the indexing pins having the complementary value of said numeral keys.

Subtractionsetting mechanism is provided to set the 9 pins and change the connections of the pin-setting linkages. This subtraction-setting mechanism may comprise a rock shaft 144. carried by plates 145 and 14.6. and having two setting plates 14? thereon. engaging with the 9 pins on the set of controlling members 52. which set is divided into two groups for a purpose which will hereinafter appear. The plates H7 depress the 9 pin when the rock shaft is actuatedv The r ck shaft 144 is also providcd with an arm L48 to engage ith a pixote'l unirersal bar 150. pivoted on cars 151 and engaging in notches 152 in the various 60 of the pin-setting rock shafts 56, to move said rock shafts forwardly to change the connections with the piirsettin linkages.

The root shaft 144 may be actuated by a motor 153, herein shown as a spring motor, comprising a shaft 154 which is normally held by a pawl 155. engaging with a disk 156 on said shaft, (Figure 7), the pawl 155 being pivoted at 157 and a'ctuable to release the motor 153 either manually or automatically.

To release the motor 153 manually, there is provided a subtraction key 158., at the front of the machine, (Figures 1, 4 7 and 14), on the end of a bar 160 to move the latter rearwardly, to swing a bellcrank 161 about the pivot 157, said bell-crank engage ing with a pin 162, on the pawl 155, to swing the latter out of holding'relation with the disk 156, (Figure 14). The shaft 154 immediately starts rotating under the influ:

ence of a springg' '1'63o'i the motor 153,120

cause "a cam'16 1securedto' said shaft to make a complete turn and rock the subtraction setting shaft 144, through the medium of an arm 165 on which is a pivoted awl 185 which is engaged by said cam. Consequently the 9 pins are set, the connections of the keyoperated rock shafts56 and the pin-setting linka es changed and the subtractionsettings aft 144 returned to its normal osition'by means described hereinafter. 'l'he'subtraetionky 158 may be supported at its forward'end by ashoulderfed screw 166 on the plate 111 of the totalizer, and may be moved against the tension of a return spring 167 connected thereto," A4 spring-pressed latch 168 may be pivoted on the rod 160 to retain it in its actuated position, the latch engaging with a projection 170 secured in, the frame 57 of the'pinsetting linkagesj Afterthe indexing pins 53 have been-set, the general operator including thecross bar 91, is actuated to move the controilin members forwardly, as hereinbefore described. During the latter part of the forward movement of the general operator 90, the cross-bar 91 engages with a cam 171 on the latch 168, to swin the latter out of engagement with the PPOJECtlOI'i 170, thus releasing the subtraction bar 160 to permit it to be restored to its normal position by the spring 167, and. consequently, bringing the holding pawl 155 into engage ment with the disk 156 on the motor shaft 154. A spring 169 (Figure 4) is provided to restore the pin-setting rock shaft 144 to its normal position, one end of said spring being connected to the plate 146. the other end bearing against the arm 165 on said shaft To release the motor 153 automatically, 80 that the machine may he set to subtraction without the attention of the operative, there may he provided a subtraction selector 1 2,

(Figure 3) set opposite the column in which it is desired to subtract. This selector 172 is provided with a subtraction tappet L73, which, as the carriage enters the computing tone, engages with a canrlTFl on a bail-like lever or subtraction-setting lever 175. to rock the latter about the fulcrum rod 75, to swing the lower end 176 of said bail forwardly to actuate the pawl 155 by means of a link lTT connected thereto. thus swinging the pawl L out of holding relation with the disk l56. to release the motor 153 and actuate the subtractionsetting mechanism. as hereinbefore described. As the motor shaft rotates,

' a cam 1T8 thereon engages with a. pin 180 on the bellcrank 161, to actuate the subtraction bar 160 until the latch .168 engages in back of the projection 170, thus automatically locking the holding pawl 155, through the medium of the pin 162 engaging with the bell-crank, out ofeffective relation withthe disk. 156. It will be seen that ,the subtractionlrey 158 is drawn into the machine when it is automatically set to subtraction. Thus the key serves to indicate the state of, the machine, irrespective ofavhether it has been set manually or automatically. .The for- .ward end of the link 1 77 balsa slot 181 therein to perinita pin 181, with which said link engages, to more idly forward when the pawl is actuated by the subtraction key 158, thusleaving the connections, including the subtraction-setting lever 175 and the link 1T7',;undisturbed while the machine is being settosubtraction manually.

The motor l53'may be re-energized 'by re .windingthe spring 163 by a. raclgbar 182,

meshing witha pinion 183 (Figures tiand 14) on thejinotor shaft 154, the rack bar 182 being moved forwardlv by .the cross-bar 91 during theactuation of the general operator, said cross-bar engaging with a projection 184 on said rack bar. t will be understood that every time the motor is released, the rack bar 182 moves rearwardly adistance corresponding toone reyolution of the shaft 154 to be in readiness to rewind the motor whenthegeneral operator is actuated. The degree of unwinding of the motor may be limited in any suitable manner so as to prevent more than one complete turn of the cam 16-1.

A pivoted pawl 185 on the arm 165, secured to the subtraction-setting rock shaft 144. is heldagainst a pin 186, (Figure 6),

.onsaid arm by a spring 187 so that the motor may be rewound without actuating the subtraction-setting rock shaft 144, the cam 164 swinging the pawl 185 idly against the tension of the spring 1ST.

To run in an extra digit into the units 1 place of the totalizer, to correct the mathe matical error in the (:omplemental method of subtraction, there is provided a superntr inerary ha r lhh, (Figures 4, Bil and ad jacent to the controlling member 52 of units position. The supernumerary bar 188 is provided with a lip 190, which extends laterally therefrom into the plane of the indexing pins 53 on the units Controlling member. 'hen the machine is set to addition, the lip 190 enters a notch 191 inithe cross-bar 91 of the general operator, during theforward movement. of the latter until the tor ward edge of the lip is in alignment with i ing pin.53 on the'unitis controlling to be bngaged by the lip 190, instead of the cross-bar 91, and consequently, more the units controllino member SQoneIdigit distance-fun ther than the distance corres )onding inyalue to the value ofthe seti n exing p i, con

sequently correcting the mathematical error. The latch 192 may-beheld in either of its positions by a detent'spring l95,an :l ','hiay belimited in its 'dow nw'ard Qmoy'enieril', by a stop 19,6, engagingcnthe upperisid'e o f thesupernumera bar 1&8. T o rend'nthe latch 192 il lfiect vetlthere'is" providedan intermediate leyhltt'h-piyoted at 198 on the super'numerary ba'r.; 188;. The lever 197-,llil a free end 200,'1\yh'ich.is mdredhitoeng'agthe latch 192',is -set, so that it may benchiated by said universal bar duringthe latter part of the return stroke of the general operator to withdraw the. projection 19l from engaging relation with the crossbar 91 of the general 0 erator.

As above escribedy -the 9 pins are all set and the connections to the pin setting devices are changed during the subtractionsetting operation which takes place when the carriage enters the subtraction zone. When the number is being typed. as the carriage passes through the zone, the indexing pin..- 53, having complemental values of the numerals typed. are set on the controlling members and consequently it the numeral are other than zero, the 9 pins on the various controlling members must be re leased. For this purpose, each indexing pin 53 is etl'ective by means of the ram 84 there on to release the 9 pin. The ll pin-setting linkage is disconnected. to he ineltectix c. and the 0 numeral lrcy is connected with the 9 pirrsetting linkage when the machine i; .srt tn subtraction. This is ilnnr that thv 1ng'relation with theuriiversal bar 1% when i 'bers 52.

9 pin may be set again if it has been erroneously released. For example. if the operative erroneously types ""1" instead of W the 8" pin, which is set by the 1" pin setting linkage while the machine is set to subtract-ion. releases the set 9 pin. To make the corre'qtion. the operative brings the carriage back to the proper denominational position. and artuates the t1 numeral he and consequently the U pin-setting linkage to set the 9" pin and release the er roneons'ly set 8 pin. The 9" pin-setting plates 1 1T (Figure 4) are provided with cutouts 201 into which reduced heads 202 of the 9 pins project, to permit the 11" pins to be set by the 9 pin-setting linkage without interfering therewith.

It is desirable to restrain the motor 153 during its operation to set the 9" pins. For this purpose, there is geared to the mo tor shaft 154 a speed governor (Figures 4, '6' and 7), which may comprise a shaft 203 with a blade 204 thereon, said shaft 20?. having a pinion 205 thereon to be. driven by a gear wheel 206. -the latter havin a pinion 207 secured thereto. to be driven by a gear \vheel 2H8 on the motor shaft. pawl 21H mounted on a disk 211, secured to the gover nOr shaft 203, engages with the pinion 205 so :is to effectively rotate the blade 2114 only while the motor is giving off its energy.

Computation may be had in a plurality of totalizers, provision being made for seven 'totalizers, in the present instance. The number set up on the controlling members 52 may be run into all of the totalizers simultaneously. into any individually selected tota'lizer, or into any combination of sele ted totalizers. according to the set-tin; of the selectors on the carriage.

, To compute in the various totalizers 110, the drivers 100 may be in the form of shafts extending crosnvise of the controlling mem- The drivers or shafts 100.'are pro vided with plurality of sets of pinions 104, one set for each tot-alizer, with which the transfer elements 103 of the various totalizers may engage. The transfer elements 103 are normal]; out of drivin I relation with the drivers 100 and the dial w reels 106 and each set of transfer elements is carried by a movable support 212 (Figures 4, 11 and 15), which may be moved upwardly, in a manner presently to be described. by an arm 213 which when depressed. rocks a short shaft 214 on brackets 215. The shaft 214 has a. forwardly-projectin; arm 213. located cen trally relatively to the movable support or carrying frame 212. and engages with a cross-bar 216 on said support 212. to raise the latter. to brin; the racks 105 and 107 of the transfer eleiuenls lflfl into mesh with the pinions 104 on the drivers and the pinions in? on the dial Wheels H16, 1 inch support is guided to more parallel to itself by means of rock shafts 217 and 218. having arms 220 and 221 by which the support is carried, and arms and 223 connected by a link 22 1.

The totalizers 110 may be rendered eflec' tive by tappets 2-25 on the selectors to engage with cams 226 on baiHike-totalizer selector levers 227. to swing said levers about the fulcrum T5, and cause the lower ends 228 thereof to movelinks-230 forwardly to rock bails 2 31 pivoted on a rod 232. The various bails 231 areheld in place on the .rod by 001- lars 233 (Figure 3). and extend laterally to their respective totalizers, where they are connected n'ithatbe various totalizer selector .bars 234. Eachzselector bar 234 is connected with an interponent 235; which maybei'piv; oted thereon and may be moved to its effective positionyt-Figure 8). between a finger 236 -on anroekshatt 237 and the arm 213. It-'should lbe;iunderstood that eacbsiipport 2126s p'rdv idedi with an arm 213,-and that there iis-.a plurality of fingers 236 on the ir'o'el: shaft 237-..oneassbciated .with each-arm 213; and, a5untiher,rtl1-atthe botalizer selector bars 23d areieflective only to introduce the inter ponents ibetween -the fingers 236 and the arms'2l3'. 5

The :t-otalizers 110 are connected after the number is set up on the controlling members 52, and during the-early part of the forward movementof-tlhe'egeneral operator- 90." For .tbis purpbse itbere .is connected at 238, (Fi ii-res 4. 1 aind'w). t0 the cross-bar 91 of.te qeneral operator 90, a bar-240 having a cam 241-thereon, to engage with a pivoted .pawl 242 on an-1mm 243Isecured to the rock-shaft 237 to swing-the arm 1243 downwardly and actuate vthe rock shaft 237, thefingers 236 thereon engaging with the effective interponents 235. to actuate the arms 213 to con' nect the selected totalizers through the medium of "tlie'transferdevices 103,49 previouslydescribed.

.-\s'the eeneml operator reaches the end of its forward movement. the pawl 242 drops into a notch 244 (Figure 11) in the bar 240, thus permitting the support 212 to drop slightly. but not sufliciently to take the racks 107 of the transfer elements 103 out of mesh with the pinions 108 on the comput ing wheels 106. thus preventing overthrow of said computing wheels. This is done so 'that the general operator. as it starts on its return movement. may render the pawl 242 ineffective by swingiup it about its pivot 245 and against the tension of a spring 246 (Figure 12). thereby permitting the arm 24 1 to rise. and the rock shaft 237 to be re stored to its normal position by a return sprin; 24-7. (Figure t). 'onsequently, the supports 212 are lowered to take the rack .03 and m7 of the transfer elements 103 out of mesh with the pinions illi of the drivers and the piuions W9 of the computing Wheels,

prior to the restoration of said transfer elements 103 to their normal position relatively to the supports 212.

Gravity will ordinarily restore thesup ports 212 for the transfer devices 103. If the reversing of the general operator is very rapid,however.the transfer devices 103 may not become disconnected quickly enough. Means is therefore provided to insure the restoration of the various supports during the early part of the return stroke of the general operator and before the transfer elements are moved towards their normal positions. For this purpose, the carry-over shaft 138 is provided with a series of disks-248 (Figures 1 and 4), one foreach totalizer, each disk having a notch 250 therein, into which a pin 251 projects from an arm 252 pivotallv mounted on the rock shaft 93, the arm 252 being connected to the support 212 by a link 253 to raise the pin 251 into the notch 250 when the support 212 is raised. lVhen the carry-over shaft starts rotating, the disks 248 engage with the various pins 251 to swing the arms 252 downwardly, and consequently lower the correspondin supports 212. It will be evident that, during the rotation of the carry-over shaft, the disks will serve to lock the arms 252 and the supports 212 in depressed position. Furthermore, the carry-over shaft will be locked against movement durin 'the forward movement of the genera operator when the carriage is positioned to select any of said totalizeis. 7

To restore the transfer elements 103 to their normal positions relatively to their supports 212, each set has associated therewith aU-sha )ed univeisal. bar 254 (Figures 1, 4 and 12l, extending forwardly from the cross-bar 91 of the general operator, to engage with projections 25? on the transfer elements to draw them rearwardl the'parts being so proportioned as to allow the general operator to move sufficiently to restore the supports 212 before the universal bars 254 engage with the projections 254' to restore the transfer devices 103.

The transfer elements may be guided in slots 255. (Figure 15), in cross-bars 255 of the supports 212. and each set of elements is caused to move up and down with the support by a rod 255" extending from side to side of the support and through slots 255 on the transfer elements. and also by a strap 255 extending over the transfer elements. Each support 212 has pirotally mounted on a fixed rod 256. carried thereby, a universal bar 257 which becomes effective toward the end of the return movement of the transfer elements 103 to fullv restore them on their support hv a spriirg 258. (Figure 1). con HPClC(l with said universal bar 257.

Each selector may comprise a voke-like incinher 261), (Figure 16), secured to the body portion 65. The yokelike member 260 has pivoted thereon, at 261, a frame comprising a short shaft 262, with two arms 263 and 264 projecting therefrom. to carry a tappet shaft 265 pivoted on said arms at 266. r

A roller 267 is provided on the arm 264 to engage in a groove-268 of a channel-shaped guide bar 269 (Figure 17), as the carriage traverses the computing zone, so as to accurately position and retain the tappets 73, 173, and 225, which project from the tappet shafts 265 of the various selectors, in effective relation with the various levers to be actuated by the tappets. Each tappet shaft 265 is provided with an arm 271, which is held against a pin 272 by a spring 273, coiled around the shaft, against which said shaft may yield as the tappets pass their co-operating levers during the return movement of the carriage.

A pin 264 on the yoke member 260 engages in a slotted extension 264' (Figures 16 and 17), of the arm 264 to prevent the frame, comprising the shaft 262 and arms 263 and 264, from swingingsufliciently to get the roller 267 out of alignment with the tapered ends 268of the groove or guide slot268.

It will be seen that due to the mounting of the tappet shaft 265 in a frame pivoted on the selector .64 and the provision of the roller 267 and the slot, the tappets on said shaft will be accurately positioned, any slightdisplacement, due to failure to place a selector completely-on the rack bar, or to other causes, being compensated for by the engagement of the roller 267 in the slot 268.

Under ordinary conditions, .when the operative wishes toqcorrect a numeral. just typed. the carriage is moved back ,two ,or three letter-spaces and then advanced .again to the, proper position by the usual space bar-274. When=the carriage is moved backward, the tappet 173 is dragged over the cam or. engaging portion. 226 of the selector lever, and is rendered. ineffective; consequently, the totalizer selector lever resumes its nor- 1118-1 position. The edge of the engaging portion 226 is provided with fine teeth 270 (Figure 17), so that.as the carriage is-fed to its proper position bythe space-bar, the tappet catches on the teeth 270 and is returned to its effective position; As the tappet'is again brought. to its effective position, the totalizer selector lever is again moved to its effective position. a

It should be understood that if the tappet 225 is constructed as indicated in Figure 16, it will engage with only one totalizer selector lever 227. There may be a plurality of tnppets 225 on each tappet shaft 265, or a single tappet may be of a SUfilClCflf, width to engage with all of the totalizer selector levers 227. or as many as desired, so that, as it enters the computing zone. the various sclector levers may be operated, thereby ren lllil dering all of the totalizcrs effective by in sertiug the interponents 235 between the lingers 27ml; nllai the nctua-ting arms 2L5. in the latter (use. however. it may be necessary to provide a notch in the elongated tappet it it is not desired to actuate the subtractionsetting menus. It will further be understood that. rurions combinations of totalizers m-av be selected by having the tappets differ ently arranged on the-tappet shafts or members r I The over-lap, as seen in Figure 1, between the various tappets on the selectors 64 and 172 and the .various levers actuated thereby may be adjusted by an eccentric stop 275, which may berotnted about itsaxis 276 to procure theproper adjustment, and secured in .place by .one or more screws 277, (Figure 3) w ltiwill be seen byan inspection of Figure 4 that the set of controlling members 52 is arranged in two-groups, the groupsoccupying the spaces between the middle .totalizer and the two adjacent totalizers. It will further beseen that the controlling members are armiiged-in a reverse denominational order; in other words. the controlling member of lowest denominational order is to the left of the set. while the one of highest denominational order is to the right of the set. This is done so that the intermediate pin bars 63, associated with the controlling members, may be connected in a simple manner with the denomination selecting levers 74., which are arranged in the same order. due to the fuct-that'they are engaged in a descending order by the carriage as it travels from right toileftp The connections between the controlling members 52 and the dial wheels 106 of the totalizer may be transposed by arrangin the set of pinions 1H1. connecting the contro ling members with the drivers 100, diagonally crosswise of said drivers. and the sets of pinions ltll, connecting the drivers with the trnnsfcr elements 103. diagonally crosswise ofthsdrivrrs 10(1 and in :1 direction crosswiseol the direction of the set of pinions lUl. By this arrangement. with the pinions ll-progressing from right to left towards the hack of the machine, while the pinions A l progress from left to right towards the bark m the machine. the controlling meinhers 5:! of units position to the left of the set may drive the dial wheels 106 to units posh. Lion to the right of the various sets of dial wheels.

From the foregoing. it will be understood that the master drivers with the pinions 101 and 104 thereon serve also us transposition device heivvecn the rontrollirlg members and the dial wheels of the variou tot-.ilixi-rs it is dcsiru lc. in writing the numerals in the \arious columns. otligurcs. to punctuate between millions uud-hundrc(ls ol thousands,

thousands and hundreds, and in the-decimal position after units. This may be done by typingn punctuation mark in thevairious positions, or by actuating the space -key tG lGWVO a blank space. Means is provided to lock the numeral keys when the camiagereaches these punctuation positions. to prevent the 0penat-ive from typing numerals insaid positions. For this purpose. each numernl liey '25 lms connected therewith a Wedge tar-intruding member 278, which may engage between a set of pivoted pawls 280 sus ended between two studs 2st, one at each si e of-gtheiset of pawls, with suliicient )lay in the sat toper mit the entrance of only one wedgeatatime; as shown in my patent herein referred-to. An intruding'do'g 282 may beyieldingly cpnnected to a shaft 283, and adapted toenter between two of the suspended pawls 28,0uto take up the play in the set i pawlssnd pre vent the entrance of; the various :wedges 278 of the numeral keys, thus locking the-nu;

'meral keys against actuation. To .mctnate the intruding dog 282, there are provided pivoted levers 284, one for each punctuation position in the column, said .leversbeing 110- tuable by the tappets 73 on the selectors as the carriage traverses a computing zone. The levers 284 are swung about their ful'crumflfi, to cuusethe lower ends 285 to move forward, ly. to ush-links 286 connected toan nrm -287 on a s aft 288 to rock the latter. The shgfi; 288 is )rovided withau upwardly-projecting arm-2 l) to pull a link 29). nearwardly-when any one of the levers 284-is actuated, toastuate the shaft 283 by means of arm QQZ connected to said link, and swing the intruding dog 282 to its etfmtive'lockmg posit-ion. A spring 29 3 may be connectedtothe shaft 283 to restore it to-its normal position. The links 286 are provided withslots Q94 so'that they may more idly forwardly when one of the levers is actuated without disturbing the other levers. The levers 284. as well asthe levers T4 175 and 2'27. may be moved against return springs 295 (Figure 1). a

Thecomput-in mechanism may be mendered inefiectiveay a non-compute key 296, which, when actuated, moves a plunger 29.7 rearwardly to swing a bell-crank 298 about a pivot 300. The bell-crank 298 engages with an arm 301, secured to a shaft 302, to lock the latter'in a clockwise direction. The shaft 302 is provided with another arm-303 to move downwardly a link 304, connected to an arm 305 on a shaft 306, to rock the latter. The shaft 306 is also provided with two upwardly-extending arms 307 to support the fulcrum rod 75, (Figures 1 und3), upon which the denominational selecting levers 74. totalizer selecting levers '22? subtraction setting lever i723 and the key locking levers 284 are pivotally mounted. When the shaft 306 is actuated. the fulcrum rod 7.3 is carried rearwnrdly thus swinging a l of the levers about their points of connection with the links 77, 230, 177, and 286, respectively, to move their upper ends out of effec tive relation with the tappets on the selectors (Figure 21). The rock shaft 302 is moved against a return spring 308, and may be retained in its actuated position by a pin 310 on the plunger or bar 297, which may engage in a depression 311 of an elongated slot 312 inthemachine frame. The shaft 302 maybe released at will b the operative, by raisingthe pin 310 out of the depression 311 to permit the spring 308 to restore the non-compute key 296 and the various levers 74, 175, 227,'and 284-to their effective positions.

The platen 33 may be shifted to uppercase position so as to facilitate typing with the uppercase types 32. For this purpose, there isprovided a shift key 313, which, when depressed, swings shift-key lever 314 about the fulcrum 28, to cause an arm 315 on said leverto swing a shift frame 316 about the axis of a shaft 317. The shift frame coinprises a rail 318, which moves upwardly, and by engaging with a roller 320 on the platen frame 34 the rail 318 moves the platen frame upwardly to carx 'ly the platen 33 to its upper case position. he usual arms 321 on a rock shaft 322 may be used to guide the platen frame 34in its case shifting movements.

It is desirable to render the computing mechanism ineffective when the platen is shifted to its upper case position. For this purpose, there is secured to the shaft 317 of the shift frame a rearwardly-extending arm 323, having a roller 324 thereon to engage with a' cam arm 325 on the rock shaft 302, so that when the shift frame 316 is actuated the rock shaft 302 is swung in aclockwise direction by said arm 323, to actuate the rock shaft 306, to swing the fulcrum rod 75 rearwardly and thus move the engaging portions of the levers pivoted on said rod 75 out of effective relation with the ta'ppets on the selectors. It will be seen that' when the rock shaft 302 is actuated by the arm 323, the non-computie key 296 is left undisturbed, as the arm 301 of the rock shaft 302 simply moves away from the bellcrank 298.

A back-spacer key 326 is provided, which may be used to back-space the carriage 35 when it is desired to make a correction. The back-spaoer key when actuated rocks a shaft 327, having an arm 328 thereon to pull downwardly on a link 330 to swing a pawl 331 into effective relation with the teeth on the feed rack 47. The forward swinging movement of the pawl 331 is stopped by a lever 332, upon which the pawl 331 is pivotally mounted. After the lever 332 is arrested against the feed rack 47, the pawl is swung about its pivot 333 to'move the carriage bark one lcttcrspace distance. The backspaciug mechanism may be like that disclosed in the patent to l'lchnond, No. 930,962.

\Vhen the carriage is back-spaced into the computing zone, or while in the computing zone, the tappets 225, under ordinary conditions, would swing about their pivots to their ineffective positions, which would be objectionable. To avoid this, however, there is provided means controlled by the back-spacer key to swing the cams or engaging portions 226 of the tofalizer selector levers 227 out of effective relation with the tappets 225. This means may comprise an arm 334, extending rearwardly from the rock shaft 327, to move a connecting link 335 upwardly when the back-spacer key is actuated, said link being connected to an arm 336. extending forwardly from the rock shaft 302, to actuate the latter, and consequently swing the fulcrum rod 75 rear wardly to move the levers 227 to their ineffective position, thus avoiding any frictional contact between the tappets 225 and the levers 227, which would otherwise tend to render the tappets 225 ineffective during a back-spacing operation. After the back spacing operation, the levers 227 are again permitted to move forwardly to properly engage the tappets 225.

he carriage may be rapidly positioned denominationally in any one of a plurality of columns by a set of decimal tabulator keys 337. Each tabulafor key, when actuated, swings a lever 338 about a fulcrum 340 to move a plunger 34-1, associated therewith. upwardly to bring the upper end thereof, comprising a denominational stop or counter stop 342, into the path of a column stop 343, forming'part of the body portion of the selector on the typewriter carriage. When the plunger 341 moves upwardly, it engages with a universal bar 344, to rock a shaft 345, having an arm 346 thereon, to pull downwardly on a link 347 and swing a lever 348 about its pivot 350, to raise the feed rack 47 out of mesh with the pinion 46. by means of a roller 350 on the front end of the lever 348. The carriage 35 is immediately drawn to the left by the spring drum 38 until it is arrested by-the column stop 343 engaging with a projected counter stop 342.

Provision is made to prevent the tappets 225 from striking the cams 226 on the levers 227 during a tabulal'ing operation of the carriage. For this purpose, the rock shaft 345, to which the universal release bar 344 is secured, has a rearwardly-extending arm 35! which, when the rock shaft 345 is actuated. swings upwardly to actuate a link 352. connected to the arm 336. to rock the shaft 302, to cause the fulcrum rod 75 to be moved rearwardly. as previously described, to takithe levers 227 out of engaging relation with the tappets 2251 The links 335 and 352 hauslots 353 and 354, respectively. at their lower lIlO ti J

ends so that they may be actuated inde pendently of each other.

The totalizcrs have individual shutters 355 associated therewith. which normally cover the numerals on the dial wheels Hi6 so that they cannot be observed through the sight openings 133. l'Vhen a totalizei is selccted an intcrponent 357. which may be carried by the associated totalizer selector bar 234, is moved forwardly therewith and into the path of a cam 358, (Figure 8) on the carryover shaft 138. The cam 35S engages with the interponent 35? during the latter part of the rotative movement of the carry-over shaft 138 to depress the interponent'35T (Figure 13) and swing a lever 360 about its fulcrum 361 on the plate [12. the lerer 360 having a pin'and-slot Conner tion 362 with the interponent. The lever 36 normally serves as a latch for the shutter, but as it is swung out ofholding relation therewith. a spring 363 connected between the lever 3G0 and the shutter 355 swings said shutter about the rod 122, upon which the dial wheels 106 are rotatively mounted. to uncover the numerals on said dial wheels at the sight-opening 133. As soon as the carriage moves out of the'computing zone. the totalizer selector bar 234 returns to its normal position and swings the shutter 355 to cover the numerals on the dial wheels. This may be done by means of'a projection 365 on the totalizer selector bar 234. to engage with a projection 366 on the shutter. \Vhen the shutter reaches its normal position, the lever 360 snaps 'into holding position be hind a nose 367 on said shutter. It should be understood that eac'hshut-ter 355 is provided with means totselectirely actuate the same as above described.

Each totali'zer is provided with a clearance-printing key 368, (Figures 1. 4 and 6), to print a sign, preferably a star, the keys being aetuuble only when the corresponding totalizers have been rendered etfeeti've and when the dial wheels of the selected totalizers are at 0. Ordinarily the keys 368 are locked against actuation by lot-kin; members in the form of bails 3TH, pirotally mounted at 371 on the side plates Ill and 11; of the totalizers. As the carriage enters the computing zone. one of the totalizer selector bars 234 may be moved forwardly. as herein described The totalizer selector bar tends to swing the lockingmem'ber 370 out of locking relation with the key 365. the bar being yieldinglv connected to the locking member by a spring 37']. If any one ol the dial wheels or -upies a position other tlmn (J b the locking member is prevented from unlorlt'ine the hey Iltib. arid consequently tin latter 1 annot be urtuwtcil. 'l"or this on: po e. there is pioiuleil zu-sel of iuterlnedrltiellinrnt'. lirt pli lallr inounnd on llu I" \l llf nlllil l'l[ll lllili filgtllg \titl ilo- 1i;

Wheels 136 of the various dial wheels. liach gear wheel is provided uith a depression 374 which is so positioned relatively to the numerals on the dial wheels that the associated controlling element 37;) may drop into the depression when "*0" is opposite the sight-opening 133. (Figure 6). \Vhcn all the dial wheels are in their 0 positions. the locking member 370 is swung to its inef fee-tire positiow (Figure 8). by the spring 372. if the totalizer selector bar 234 has been previously actuated. Suitable springs (not shown) may hold the elements 3T3 against the gear wheels 1336.

To clear the totalizer, or. in other words, to set all the dial wheels back to O," the machine is set to subtraction and the carriage is moved to the proper position to select the totalizer. The general operator may then be reciprocated to actuate the shut ter to expose the registered number in the totalizer. The operative then types the number shown in the totalizer and actuates the general operator, and, since the machine is set to subtraction, the dial wheels on the totalizer are restored to their 0 positions. The intermediate controlling members 373 all drop into the notches 374. and the spring 372 swings the locking member to release the ltev 368, (Figure 8).

Each key 368, when actuated engages an arm 375 extending from a shaft 375 (Figures 1 and 4), to melt the latter and swing a single arm 3T6 extending rearwardly therefrom, to engage with an arm 377 to rock a shaft 378 and actuate an upwardlyextending arm 380, which normally engages under a pin 381 on a link 382. pivotally connected at 383 to a pivoted member 3S=L \Vhen the arm 380 is moved out of the path of the pin 381. a spring 385 actua'tes the member 384 to pull downwardly on a linlc 386, connected to a lever 38? to swing one of the bell-cranks 29 connected therewith and actuate the type-bar having a star typo thereon. to print against the platen 33. It will be understood that the rock-shaft 375 is provided with several arms 375, one for each kev 368. so that the rock-shaft may be actuate by any one of said keys to release the startvpe printing mechanism. The keylerer 38? connected to the star t vpc-bar may be restored to its normal position during the actuation of the general operator. a cam 389 on the carry-over shaft L38 being pro vided for this purpose. said ram engaging with a roller 389 on the member 384 to more the latter burl; to its normal position against the tension of the spring 385. i

llltl when they coier the sight-openings, serve as indicators to inform the operative that none of the star lieys 2268 can be actuated, except the one which is indicated by the open shutter.

To restore the locking members 370 to their normal loclring positions, the totalizer selector bars 234 are provided with fingers 388, engaging with projections 390 on the locking members 370.

Provision is made to retain one of the totalizers constantly ellective, so that it may serve as a cross-totalizer. For this purpose, the totalizer selector lever 22?, associated with said totalizer, has a hoololilce projection 391 thereon (Figures 1, 3 and 17), to engage, when the lever 22'? is in its actuated position, in back of a pin 392 which may be placed in a hole 393 in a guide-plate 394 for the denomination-selecting levers 74. Thus, the interponent 235 'associated with the totalizer selector bar 234, connected with the totalizer selector lever 227, ma. be held in its effective position indefinite y, and consequently any time the general operator is actuated, the totalizer is connected to the drivers 100. The pin 392, when out of use, may be placed in a hole 395 (Figure l?) in the guide-plate 394.

Variations may be resorted to within the scope of the invention, and portions of the im rovements may be used without others.

Iaving thus described my invention, I claim:

1. In a combined typewriting and con1put ing machine, the combination of a letter feeding carriage, a plurality of totalizers, each totalizer comprising computing elements, a set of variably movable drivers for all said totalizers, a set of interponents for each totalizer normally disconnected there from, and means including an element on said carriage to selectively move the inter ponents of said sets into position to. cooperate with the corresponding totalizers.

2. In a combined typewriting and computing machine. the combination of a letterteeding carriage. a plurality of totalizers, each totalizer comprising computing elements, 2. set of variably movable drivers for all said totalizeisa set of interponents for each of said totalizers normally disconnected from both said computing elements and said drivers, and carriage-controlled means to selectively more different sets of iuterponents into ctlectirc relation to connect the Computing elements of any totalizer with said drivers.

oi selectors on ill l Eiarriage, one {or each group of totalizers to be actuated simultzr ncousl and a plurality of hail-like ruenr bcrs, one for each totalizcr and cngageable by the proper selectors to render and maintain the selected totalizcrs elfective by connecting their computing wheels with said drivers.

4. in a combined typewriting and compnting machine, the combination of a letterfeeding carriage, a selector on said carriage, a pivoted tappet on said selector, a lever ac tuable by the tappet on said selector, and means settable by said lever, said lever having a toothed engaging portion thereon with which the tappet may engage to be rendered effective after the tappet has been rendered ineffective by moving said carriage back ward.

5. In a combined typewriting and comput ing machine, in combination, a traveling carriage, computing mechanism including a controlling member having an engaging portion of approximately the length of a computing zone, a selector on said carriage, a tappet pivoted on said selector and connected therewith so as to actuate said controlling' member during the letter feeding movement of the carriage through the com puting zone, and to turn on its pivot during the return movement of the carriage through said zone, urging means tending to return the tappet to efi'ective position when displaced therefrom, and means to insure the return of the tappet to eliective position upon advancing the carriage after rendering the tappet ineffective by backing the carriage into the computing zone.

6. In a combined typewriting and computing machine, in combination, a traveling carriage. computing mechanism including a plurality of controlling members therefor. said controlling, members determining a computing zone, a supporting device common to said controlling members, a selector adjustable to letter-space positions on said carriage. a tappet member having tappets thereon in accordance with the controlling members to be actuated, said tappet memhcr having a limited movement on said sele tor. means including: a fixed guiding member to accurately position'the trippet member on the selector in passing through the computing zone, a non-compute key, and means actuable by said non-compute key to move said controlling members out of efl'cctive re lation with the tappets on the tappet member.

7. In a combined typewriting and computing machine, the combination of a carriage, computing mechanism Comprising a set of lovers which determine a computing zone. a selector. a tappet member constructed to operate selected levers. u support. f r said tappet member having limited niovf'nwnls on said selector. and means including a tin-d 

